脂滴
脂质积聚
二酰甘油激酶
脂质代谢
生物化学
炎症
脂质信号
两亲性
棕榈酸
化学
甘油三酯
脂肪肝
脂毒性
脂质氧化
脂肪堆积
细胞生物学
脂肪变性
生物物理学
非酒精性脂肪肝
血脂谱
脂肪组织
纳米结构
脂质双层
脂滴包被蛋白
脂类学
作者
Seunghee Kim,Yeojin Kim,Sanjita Paudel,In Young Kang,Suyeon Kim,Jeesoo Kim,Sun‐Mi Park,Seung‐Hoi Koo,Hyunsung Kim,Dae Won Jun,Jinyoung Park,Hyunbeom Lee,Joonseok Lee
标识
DOI:10.1002/adma.202506373
摘要
Excessive lipid droplet accumulation in hepatocytes drives the progression of metabolic dysfunction-associated steatotic liver disease (MASLD), often leading to inflammation and fibrosis. As obesity and metabolic syndrome rise, MASLD has become a global concern, spurring research into effective treatments. Here, the design of a Lipid droplet inhibitor (LDI) is presented, incorporating porous silica nanostructures along with PKCα C1A and Candida Rugosa lipase, aimed at directly degrading lipid droplets. Through its dual-functional design, this nanostructure captures diacylglycerol using PKCα C1A while hydrolyzing triacylglycerol into smaller molecular fragments via the lipase. Notably, the amphiphilic biomolecules in LDI facilitate the formation of a Pickering emulsion, ensuring stable localization at the lipid-water interface for efficient interaction with lipid droplets. LDI reduces lipid droplet formation and triglyceride levels in palmitic acid-treated HepG2 cells. In a high-fat diet-induced MASLD model, it alleviateds liver pathology and, lowered injury scores by up to 84%. Furthermore, lipidomic analysis confirmed that LDI effectively modulated the hepatic lipid profile, suggesting its potential as a nanoplatform for counteracting lipid droplet accumulation.
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